KR200460186Y1 - Subterranean storage tank structure - Google Patents

Abstract

The present invention relates to a underground buried storage tank structure of a new structure that is easy to construct, can reduce the construction time and cost, and can achieve a more stable structure.
Underground buried storage tank structure according to the present invention is provided with a side plate 31 and front and rear plates 32, 33 at the periphery of the storage tank 10, the storage tank 10 and the side plate 31 and the front, Since the concrete wall can be formed on the circumference of the storage tank 10 by injecting and curing concrete between the back plates 32 and 33, there is no need to install a separate formwork, so construction is simple, construction time and cost Not only can it reduce, there is an advantage that the soil is introduced into the bent portion (31a) formed in the side plate 31 can be firmly fixed.

Description

Subterranean storage tank structure

The present invention relates to a underground buried storage tank structure of a new structure that is easy to construct, can reduce the construction time and cost, and can achieve a more stable structure.

Generally, storage tanks such as septic tanks and water tanks are buried underground.

The storage tank is made of a synthetic resin composite material (FRP) or synthetic resin material and is formed of a cylindrical shape long in the front and rear direction, the upper surface is formed with an opening protruding upward, the opening is provided with a lid.

In the case of embedding such a storage tank in the ground, a concrete wall is provided at the periphery of the storage tank to prevent the storage tank from being damaged.

To this end, when the storage tank is buried in the ground to form a pit through which the storage tank can be inserted by digging into the ground, and by placing and nurturing concrete on the inner surface of the pit to form a concrete wall, and then inside the concrete wall Insert the storage tank, and then filling the soil inside the concrete wall and then compacted to complete the installation so that the opening of the storage tank protrudes upwards.

However, in order to install the storage tank in this way, since it is necessary to install the formwork inside the pit after digging the pit, the work is very cumbersome, takes a lot of time, and the cost is increased. .

In addition, after the storage tank is installed inside the concrete wall, the installation is completed by filling the space between the storage tank and the soil, thereby damaging the pipe connected to the storage tank and the storage tank by the pressure or vibration generated when the soil is compacted. There was a problem that could be.

The present invention is to solve the above problems, the construction is easy, construction time and cost can be reduced, and its purpose is to provide a underground buried storage tank structure of a new structure that can achieve a more stable structure.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

According to the present invention for achieving the above object, it is composed of a long cylindrical shape in the front and rear direction, the upper surface is formed with a structure including a storage tank which is buried in the ground opening 11, the storage tank 10 A plurality of spacers 20 coupled to both sides of the side) and an outer case having an upper and lower surfaces open and fixed to the spacers 20 to surround the front and rear surfaces and both sides of the storage tank 10. It includes 30, wherein the outer case 30, as long as the front and rear length of the storage tank 10 compared to the length of the front and rear length of the storage tank 10 is fixed to the outer surface of the spacer 20 And a pair of side plates 31 and front and rear plates 32 and 33 respectively coupled to front and rear ends of the side plates 31 so as to be spaced apart from the front and rear surfaces of the storage tank 10, wherein the side plates 31 are A plurality of bends protruding in and out (31a) is formed of a bending plate of a metal material formed to extend in the longitudinal direction, the storage tank (injection hardening concrete in the space 35 formed between the storage tank 10 and the outer case 30) Underground storage tank structure is provided, characterized in that to form a concrete wall around the periphery.

According to another feature of the present invention, it further comprises a fixing band 23 of a metallic material fixed to be wound around the circumferential surface of the storage tank 10, the spacer 20 on both sides of the storage tank 10 Underground storage tank structure is provided, characterized in that the fixed band 23 is welded or bolted to be fixed.

According to another feature of the present invention, the upper end of the side plate 31 and the front, rear plate (32, 33) is higher than the upper surface of the storage tank 10 and than the upper end of the opening 11 of the storage tank 10 An underground buried storage tank structure is provided, which is located low.

According to another feature of the present invention, the lower end of the side plate 31 is extended to the lower side than the lower side of the storage tank 10, the lower position of the side plate 31 is the front, rear plate 32 , 33) is provided with an underground buried storage tank structure, characterized in that located above the bottom.

According to another feature of the present invention, the front, the peripheral portion of the rear plate (32, 33) is located between the outer end and the inner end of the bent portion (31a) of the side plate 31, the front and rear of the side plate 31 There is provided an underground buried storage tank structure, characterized in that the discharge port 34 through which the concrete injected into the space 35 is discharged between the end and the front and rear portions of the rear plates 32 and 33.

According to another feature of the present invention, the underground buried storage tank structure further comprises a lower support plate 36 is configured in a wide plate shape, fixed to the lower end of the front, back plate (32, 33) Is provided.

Underground buried storage tank structure according to the present invention is provided with a side plate 31 and front and rear plates 32, 33 at the periphery of the storage tank 10, the storage tank 10 and the side plate 31 and the front, Since the concrete wall can be formed on the circumference of the storage tank 10 by injecting and curing concrete between the back plates 32 and 33, there is no need to install a separate formwork, so construction is simple, construction time and cost Not only can it reduce, there is an advantage that the soil is introduced into the bent portion (31a) formed in the side plate 31 can be firmly fixed.

1 is a perspective view showing a underground buried storage tank structure according to the present invention,
2 is a front view showing the underground storage tank structure according to the present invention,
3 is a front sectional view showing the underground buried storage tank structure according to the present invention;
Figure 4 is a cross-sectional view showing a underground buried storage tank structure according to the present invention,
Figure 5 is a side cross-sectional view showing a underground buried storage tank structure according to the present invention,
6 is a reference view showing a spacer of the underground buried storage tank structure according to the present invention,
7 to 9 is a perspective view showing an assembly method of the underground buried storage tank structure according to the present invention,
10 to 13 is a reference diagram showing a construction method of the underground buried storage tank structure according to the present invention,
14 is a side cross-sectional view showing a second embodiment of the underground buried storage tank structure according to the present invention,
15 is a reference diagram showing a method for installing underground buried storage tank structure according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 9 illustrate the underground buried storage tank structure according to the present invention, the storage tank 10 is formed of a long cylindrical in the front and rear direction and the upper surface is formed with an opening 11 protruding upwards in the ground Buried is the same as the conventional one. At this time, the storage tank 10 is made of a synthetic resin composite material (FRP) or synthetic resin material and the opening 11 is coupled to the lid not shown.

In addition, according to the present invention, the plurality of spacers 20 coupled to both sides of the storage tank 10 and the upper and lower surfaces are formed in an open cylindrical shape and the front and rear surfaces and both sides of the storage tank 10 An outer case 30 fixed to the spacer 20 is provided to wrap.

In detail, as shown in FIG. 6, the spacer 20 includes a support part 21 having a strip shape vertically long and a pair of extension parts extending in parallel to both sides of the support part 21. It is configured in the form of a duct having an open-sided duct having a cross-sectional shape having a 22), and a plurality of cutting lines 22a are formed at a predetermined interval on the extension part 22, so that the side surface of the storage tank 10 It is configured to be curved to fit the curvature of the.

In addition, the spacer 20 is welded to the fixing band 23 fixed to the storage tank 10.

The fixing band 23 is formed in a strip shape having a long length and a narrow width, and both ends of the fixing band 23 are fixed to each other to form a ring by a fixing clamp (not shown) to be tightly coupled to the circumferential surface of the storage tank 10. At this time, the fixing band 23 is composed of a plurality is coupled to the circumferential surface of the storage tank 10 to be spaced apart in the front and rear direction.

At this time, the spacer 20 and the fixing band 23 is made of a metal material, as shown in Figure 7, after fixing the plurality of fixing bands 23 to the storage tank 10 to be spaced apart from each other, the spacer In the state where the spacer 20 is bent so that the support part 21 of the 20 is in close contact with the fixing band 23, the support part 21 and the fixing band 23 of the spacer 20 may be welded and fixed. .

The outer case 30 is a pair of side plates 31 fixedly coupled to the outer surface of the spacer 20, and the front and rear plates 32 and 33 respectively coupled to the front and rear ends of the side plates 31, respectively. It is composed.

The side plate 31 is composed of a bent plate of a metal material formed so that the plurality of bent portions 31a protruding inward and outward extend in the front-rear direction, and the length of the front-rear direction is longer than the length of the front-rear direction of the storage tank 10. It is composed. The bent portion 31a is configured by bending the middle portion of the metal plate to protrude in and out based on a plurality of bend lines extending in the lateral direction to the side plate 31, and to improve the structural strength of the side plate 31. do.

In addition, the side plate 31 is welded and fixed to the outer end of the spacer 20 in a state where the upper and lower ends are bent in an arc shape so as to be close to the storage tank 10 so as to conform to the outer end bending of the spacer 20.

The front plate 32 and the back plate 33 is formed so that the upper and lower ends form a straight line and both side circumference forms an arc shape to match the shape of the side plate 31, is composed of a high-strength metal plate, the storage tank Welded to the front and rear ends of the side plate 31 so as to be spaced apart from the front and rear side surfaces of the 10.

Therefore, as shown in FIG. 8, the side plate 31 is welded to the outer end of the spacer 20, and as shown in FIG. 9, the front and rear plates of the front and rear ends of the side plate 31 are separated. By welding the 32 and 33, the outer case 30 can be assembled, and a space 35 is formed between the storage tank 10 and the outer case 30. In addition, the concrete wall may be formed on the circumferential surface of the storage tank 10 by injecting and curing concrete into the space 35.

At this time, the upper end of the side plate 31 and the front, rear plate (32, 33) is located higher than the upper surface of the storage tank 10 and lower than the upper end of the opening 11 of the storage tank (10).

In addition, the lower end of the side plate 31 is extended to the lower side than the lower side of the storage tank 10, the lower position of the side plate 31 is compared with the lower end of the front, rear plates (32, 33) It is located on the upper side.

The front and rear portions of the rear plates 32 and 33 are positioned between the outer and inner ends of the bent portion 31a of the side plate 31, as shown in FIGS. 2 and 3. A discharge hole 34 through which the concrete injected into the space 35 is discharged is formed between the front and rear ends of the 31 and the circumferences of the front and rear plates 32 and 33.

The method of embedding the underground buried storage tank structure configured as described above is as follows.

First, as shown in FIG. 10, by digging into the ground to form a pit (1) into which the storage tank 10 can be inserted, and by pouring and curing concrete on the bottom surface of the pit (1) the bottom wall Construct (2). The bottom wall 2 supports the lower side of the heavy underground buried storage tank structure to distribute the load, thereby preventing the storage tank 10 structure installed on the bottom surface of the pit 1 from sinking.

And, as shown in Figure 11, after placing the underground buried storage tank structure on the bottom of the pit (1), and filled with soil on the outside of the outer case 30 to be compacted to an appropriate strength.

12 and 13, the concrete is poured and cured in the space 35 between the storage tank 10 and the outer case 30, and the concrete is surrounded by the periphery of the storage tank 10. A wall is formed to complete the burial of the underground buried storage tank structure.

The underground buried storage tank structure configured as described above is provided with side plates 31 and front and rear plates 32 and 33 at the periphery of the storage tank 10, and inserted into the pit 1, and then the storage tank 10. Since concrete can be formed on the periphery of the storage tank 10 by injecting and curing concrete between the side plate 31 and the front and rear plates 32 and 33, there is no need to install a separate formwork. Easy to construct, there is an advantage that can reduce the construction time and cost.

In addition, the side plate 31 is formed so that the plurality of bent portions 31a extend in the front and rear direction, and the structural strength of the side plate 31 is very high, so that the side plate when the soil is filled to the outside of the outer case 30 Not only can the 31 be pressed and deformed, but also the side plate 31 can be prevented from being deformed by the pressure of the concrete injected into the space 35 or the pressure generated while the concrete is hardened. have.

In addition, the soil filled in the pit (1) has an advantage that can be firmly fixed so that the entire underground buried storage tank structure does not move to the outer surface of the bent portion (31a) of the side plate (31).

In addition, the spacer 20 is fixed to the fixing band 23 of a metal material fixed to be wound around the circumferential surface of the storage tank 10, so that the spacer 20 is connected to the storage tank 10 such as through holes for bolting. There is no need to separately form a structure for fixing the), there is an advantage that the strength of the storage tank 10 is weakened or leaks in the storage tank 10 by a through hole or the like.

In addition, the upper end of the side plate 31 and the front, rear plate (32, 33) is located higher than the upper surface of the storage tank 10 and lower than the upper end of the opening 11 of the storage tank 10, Figure 12 and As shown in FIG. 13, when concrete is injected up to the upper heights of the side plates 31 and the front and rear plates 32 and 33, the entire storage tank 10 except the opening 11 is filled with concrete. .

Therefore, since the process of forming the concrete wall on the periphery of the storage tank 10 by injecting and curing the concrete at once can be completed, there is an advantage that the operation becomes simpler.

That is, when the position of the side plate 31 and the front and rear plates (32, 33) is lower than the upper surface height of the storage tank 10, the concrete is hardened after the first hardening by injecting concrete into the space 35 When it is necessary to perform the plastering work using the mortar on the upper part, the work may be cumbersome, while the present invention is the top of the side plate 31 and the front and rear plates 32 and 33 of the storage tank 10. Since it is higher than the upper surface and lower than the upper end of the opening 11 of the storage tank 10, the flat portion is injected into the space 35 to the upper height of the side plate 31 and the front and rear plates (32, 33) Since the working tank is completely embedded in the storage tank 10, there is no need for a separate plastering operation, there is an advantage that the operation becomes simpler and easier.

In addition, the lower end of the side plate 31 is extended to the lower side than the lower side of the storage tank 10, the lower end position of the side plate 31 is located above the lower side of the side plate 31, When the underground buried storage tank structure is placed on the bottom wall 2 constructed in the pit 1, a gap is formed below the bottom wall 2 and the side plate 31.

Therefore, as shown in FIGS. 12 and 13, the concrete injected into the space 35 between the storage tank 10 and the outer case 30 may fill the gap between the bottom wall 2 and the side plate 31. It spreads out along the upper surface of the pre-cured bottom wall 2 while pushing out the soil filled to the outside of the outer case 30 through the outside.

Therefore, the bottom area of the concrete wall formed in the space 35 is enlarged, so that the underground storage tank structure can be firmly fixed. In particular, the concrete leaked to the outside in this way is firmly attached to the bottom wall (2) pre-formed on the inner bottom surface of the pit (1), there is an advantage that the underground buried storage tank structure can be more firmly fixed.

That is, when there is no gap between the bottom wall 2 and the side plate 31, the concrete injected into the space 35 does not flow out, the concrete formed inside the space 35 Since the wall is contacted with the bottom wall 2 only as much as the area of the opening under the outer case 30, when the external vibration is applied after the installation is completed, the lower end of the concrete wall formed in the interior of the space 35 The location of the underground buried storage tank structure can be changed or tilted while being easily separated from the bottom wall 2.

On the contrary, the underground buried storage tank structure according to the present invention has a gap formed between the side plate 31 and the bottom wall 2, and the concrete is in close contact with the bottom wall 2 in a state where the concrete flows out to the outside through the gap. Therefore, not only can be firmly combined with the soil in a state where the lower area is wide, but also the bottom of the concrete wall inside the space 35 can be firmly attached to the floor wall (2) pre-installed, underground buried storage After the construction of the tank structure, the concrete wall and the bottom wall (2) formed in the interior of the space 35 by external vibration, etc. are separated from each other, there is an advantage that can prevent the position of the underground buried storage tank structure is changed or tilted. .

In addition, the circumferential portions of the front and rear plates 32 and 33 are located between the outer and inner ends of the bent portion 31a of the side plate 31, and the front and rear ends of the side plate 31 and the front and rear plates ( Since the discharge hole 34 through which the concrete injected into the space 35 is discharged is formed between the circumferences of the 32 and 33, when the concrete is injected into the space 35, as shown in FIG. 13, Since concrete is spread out to the outside through the side as well as the lower side of the outer case 30, there is an advantage that can be more firmly fixed underground buried storage tank structure.

In the present exemplary embodiment, the spacer 20 is welded to the fixing band 23, but the spacer 20 may be fixed to the fixing band 23 by bolting.

In addition, when installing the underground buried storage tank structure in the pit (1), after laying the concrete under the pit (1) to construct the bottom wall (2), the underground buried storage tank structure on the upper surface of the bottom wall (2) Although installation is illustrated, if necessary, a panel such as a wide concrete block may be disposed on the inner bottom surface of the pit 1, and an underground buried storage tank structure may be disposed thereon.

In addition, an additional support member may be welded and fixed to the outside of the front and rear plates 32 and 33, or the upper end portion of the outer case 30 may be end-treated with a separate member.

14 and 15 show another embodiment according to the present invention, and the lower support plate 36 is welded to the lower end of the front and rear plates 32 and 33.

The lower support plate 36 is made of a high strength and wide metal plate, and serves to distribute the load of the underground buried storage tank structure.

In the underground buried storage tank structure configured as described above, since the lower support plate 36 is coupled to the lower ends of the front and rear plates 32 and 33, the load of the underground buried storage tank structure is distributed by the lower support plate 36, As shown in Fig. 15, without installing a separate bottom wall 2 or placing a separate panel on the bottom surface of the pit 1, simply chop the inner bottom surface of the pit 1 flat and then the pit 1 Even if it is installed directly on the inner bottom of the), it will not sink.

Therefore, the underground buried storage tank structure is installed directly on the inner bottom surface of the pit 1 and filled with soil, and then concrete is poured into the space 35 between the storage tank 10 and the outer case 30 and cured. Since the concrete wall can be formed on the periphery of the storage tank 10, the construction is compared with the above-described embodiment in which the bottom wall 2 should be installed on the inner bottom of the pit 1 or a separate panel should be disposed. There is an advantage that can be easier.

In the present embodiment, the lower support plate 36 is illustrated as being formed in a simple flat form, the lower support plate 36 is composed of a curved plate formed with a plurality of bent portions 31a, such as the side plate 31, strength Can be configured to further improve.

It is to be understood that the foregoing is merely illustrative of one preferred embodiment of the present invention and that modifications and variations may be made thereto without departing from the spirit of the invention.

1. Pits 2. Floor walls
10. Storage tank 11. Opening
20. Spacer 23. Fixed band
30. Outer case 31. Side plate
32,33. Front, backplane

Claims (6)

It is composed of a cylindrical shape long in the front and rear, the upper surface is formed with an opening 11 is formed to include a storage tank buried in the ground,
A plurality of spacers 20 coupled to both sides of the storage tank 10,
The upper and lower surfaces have an open cylindrical shape and include an outer case 30 fixed to the spacer 20 to surround front and rear surfaces and both sides of the storage tank 10.
The outer case 30,
A pair of side plates 31 is formed in a panel shape with a longitudinal length is longer than the longitudinal length of the storage tank 10 and fixedly coupled to the outer surface of the spacer 20,
And front and rear plates 32 and 33 coupled to front and rear ends of the side plates 31 so as to be spaced apart from the front and rear surfaces of the storage tank 10.
The side plate 31 is composed of a bent plate of a metal material formed so that the plurality of bent portions 31a protruding inward and outward extend in the front and rear directions,
By injecting and curing concrete into the space part 35 formed between the storage tank 10 and the outer case 30, a concrete wall can be formed at the periphery of the storage tank 10,
The circumferential portions of the front and rear plates 32 and 33 are located between the outer and inner ends of the bent portion 31a of the side plate 31,
Underground storage tank, characterized in that the discharge port 34 through which the concrete injected into the space 35 is discharged between the front and rear ends of the side plate 31 and the front and rear plates 32 and 33. structure.
The method of claim 1,
Further comprising a fixing band 23 of a metal material fixed to be wound around the circumferential surface of the storage tank 10,
The spacer 20 is a underground buried storage tank structure, characterized in that fixed or welded or bolted to the fixing band 23 so as to be located on both sides of the storage tank (10).
The method of claim 1,
Underground, characterized in that the upper end of the side plate 31 and the front, rear plate (32, 33) is higher than the upper surface of the storage tank 10 and lower than the upper end of the opening 11 of the storage tank (10) Storage tank structure.
The method of claim 1,
The lower end of the side plate 31 extends longer than the lower side of the storage tank 10,
Underground storage tank structure, characterized in that the lower position of the side plate 31 is located above the lower side of the front, rear plate (32, 33).
delete The method of claim 4, wherein
The underground buried storage tank structure, characterized in that it further comprises a lower support plate 36 is fixed to the lower end of the front plate, the back plate (32, 33).

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